Hybrid Improved Bacterial Swarm Optimization Algorithm for Hand-Based Multimodal Biometric Authentication System

Karthikeyan, S.; Mohmed, Ahmad Sufril Azlan; Ruhaiyem, Nur Intan Raihana

doi:10.32890/jict2019.18.2.1

Cited by 2 publications

(1 citation statement)

References 18 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Te proposed algorithm is formed by incorporating particle swarm optimization (PSO) and bacterial foraging optimization (BFO). Tis algorithm mitigates weaknesses in premature and slow convergence [18]. [23].…”

Section: Related Workmentioning

confidence: 99%

A Single Objective GA and PSO for the Multimodal Palmprint Recognition System

Abdullah¹,

Beshir²,

Alemayehu³

et al. 2023

Mathematical Problems in Engineering

View full text Add to dashboard Cite

Biometric plays a vital role in human authentication systems. Unimodal and multimodal biometrics have been active research areas for the past few decades. The investigation of palmprint recognition under various illuminations, rotations, and translations is a challenging task. The research work on multimodal palmprint recognition systems has widely increased to improve the recognition rate and reduce execution time. In this article, a multimodal palmprint biometric system is formed by combining the left and right palmprint images to obtain an optimal recognition rate. A modified multilobe ordinal filter (MMLOF) is used to extract the features. Feature-level fusion is used to fuse the left and right palmprint images. This results in a high-dimension feature vector that requires larger memory to store. It creates redundant and irrelevant features that affect the recognition rate. To overcome these limitations, the optimal MMOF features are extracted by optimization techniques such as particle swarm optimization (PSO) and the genetic algorithm (GA). Finally, PSO and GA optimization algorithms are wrapped with the nearest neighbor classifier (NN) to evaluate the fitness function. The experimental analyses are conducted to identify the performance of GA and PSO using the IITD palmprint dataset. The 1st order MMLOF with GA (multimodal) converges faster and outperforms the 1st order MMLOF with PSO (multimodal) and obtains an optimal recognition rate of 96.95%.

show abstract

Section: Related Workmentioning

confidence: 99%